/*
* libtcod 1.4.2
* Copyright (c) 2008,2009 Jice
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*     * Redistributions of source code must retain the above copyright
*       notice, this list of conditions and the following disclaimer.
*     * Redistributions in binary form must reproduce the above copyright
*       notice, this list of conditions and the following disclaimer in the
*       documentation and/or other materials provided with the distribution.
*     * The name of Jice may not be used to endorse or promote products
*       derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY Jice ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL Jice BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <math.h>
#include "libtcod.hpp"

TCODHeightMap::TCODHeightMap(int w, int h) : w(w),h(h) {
	values = new float[w*h];
	memset(values,0,sizeof(float)*w*h);
}
TCODHeightMap::~TCODHeightMap() {
	delete [] values;
}

void TCODHeightMap::clear() {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_clear(&hm);
}
void TCODHeightMap::normalize(float newMin, float newMax) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_normalize(&hm,newMin,newMax);
}

void TCODHeightMap::getMinMax(float *min, float *max) const {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_get_minmax(&hm,min,max);
}

void TCODHeightMap::addHill(float hx, float hy, float hradius, float height) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_add_hill(&hm,hx,hy,hradius,height);
}

void TCODHeightMap::digHill(float hx, float hy, float hradius, float height) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_dig_hill(&hm,hx,hy,hradius,height);
}

void TCODHeightMap::copy(const TCODHeightMap *source) {
	TCOD_heightmap_t hm_source={source->w,source->h,source->values};
	TCOD_heightmap_t hm_dest={w,h,values};
	TCOD_heightmap_copy(&hm_source,&hm_dest);
}

void TCODHeightMap::addFbm(TCODNoise *noise, float mulx, float muly, float addx, float addy, float octaves, float delta, float scale) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_add_fbm(&hm,noise->data,mulx,muly,addx,addy,octaves,delta,scale);
}
void TCODHeightMap::scaleFbm(TCODNoise *noise, float mulx, float muly, float addx, float addy, float octaves, float delta, float scale) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_scale_fbm(&hm,noise->data,mulx,muly,addx,addy,octaves,delta,scale);
}

float TCODHeightMap::getInterpolatedValue(float x, float y) const {
	TCOD_heightmap_t hm={w,h,values};
	return TCOD_heightmap_get_interpolated_value(&hm,x,y);
}

void TCODHeightMap::getNormal(float x, float y,float n[3], float waterHeight) const {
	TCOD_heightmap_t hm={w,h,values};
	return TCOD_heightmap_get_normal(&hm,x,y,n,waterHeight);
}

void TCODHeightMap::digBezier(int px[4], int py[4], float startRadius, float startDepth, float endRadius, float endDepth) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_dig_bezier(&hm,px,py,startRadius,startDepth,endRadius,endDepth);
}

bool TCODHeightMap::hasLandOnBorder(float seaLevel) const {
	TCOD_heightmap_t hm={w,h,values};
	return TCOD_heightmap_has_land_on_border(&hm,seaLevel) != 0;
}

void TCODHeightMap::islandify(float seaLevel,TCODRandom *rnd) {
	TCOD_heightmap_t hm={w,h,values};
	return TCOD_heightmap_islandify(&hm,seaLevel,rnd->data);
}

void TCODHeightMap::add(float f) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_add(&hm,f);
}

int TCODHeightMap::countCells(float min,float max) const {
	TCOD_heightmap_t hm={w,h,values};
	return TCOD_heightmap_count_cells(&hm,min,max);
}

void TCODHeightMap::scale(float f) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_scale(&hm,f);
}

void TCODHeightMap::clamp(float min, float max) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_clamp(&hm,min,max);
}

void TCODHeightMap::lerp(const TCODHeightMap *a, const TCODHeightMap *b,float coef) {
	TCOD_heightmap_t hm1={a->w,a->h,a->values};
	TCOD_heightmap_t hm2={b->w,b->h,b->values};
	TCOD_heightmap_t hmres={w,h,values};
	TCOD_heightmap_lerp_hm(&hm1,&hm2,&hmres,coef);
}

void TCODHeightMap::add(const TCODHeightMap *a, const TCODHeightMap *b) {
	TCOD_heightmap_t hm1={a->w,a->h,a->values};
	TCOD_heightmap_t hm2={b->w,b->h,b->values};
	TCOD_heightmap_t hmres={w,h,values};
	TCOD_heightmap_add_hm(&hm1,&hm2,&hmres);
}

void TCODHeightMap::multiply(const TCODHeightMap *a, const TCODHeightMap *b) {
	TCOD_heightmap_t hm1={a->w,a->h,a->values};
	TCOD_heightmap_t hm2={b->w,b->h,b->values};
	TCOD_heightmap_t hmres={w,h,values};
	TCOD_heightmap_multiply_hm(&hm1,&hm2,&hmres);
}

float TCODHeightMap::getSlope(int x, int y) const {
	TCOD_heightmap_t hm={w,h,values};
	return TCOD_heightmap_get_slope(&hm,x,y);
}

void TCODHeightMap::rainErosion(int nbDrops, float erosionCoef,float agregationCoef, TCODRandom *rnd) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_rain_erosion(&hm, nbDrops, erosionCoef, agregationCoef, rnd->data);
}

void TCODHeightMap::kernelTransform(int kernelSize, int *dx, int *dy, float *weight, float minLevel,float maxLevel) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_kernel_transform(&hm, kernelSize,dx,dy,weight,minLevel, maxLevel);
}

void TCODHeightMap::addVoronoi(int nbPoints, int nbCoef, float *coef,TCODRandom *rnd) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_add_voronoi(&hm, nbPoints, nbCoef, coef, rnd->data);
}

#if 0
void TCODHeightMap::heatErosion(int nbPass,float minSlope,float erosionCoef,float agregationCoef,TCODRandom *rnd) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_heat_erosion(&hm, nbPass, minSlope, erosionCoef, agregationCoef, rnd->data);
}

void TCODHeightMap::midPointDeplacement(TCODRandom *rnd) {
	TCOD_heightmap_t hm={w,h,values};
	TCOD_heightmap_mid_point_deplacement(&hm, rnd->data);
}
#endif

